CN217806486U - Automatic material distributing machine - Google Patents

Abstract

The utility model relates to the technical field of feeding devices, and discloses an automatic material distributor, which comprises a temporary storage bin, a material arranging bin and a conveyer belt device, wherein the conveyer belt device is positioned below the temporary storage bin and the material arranging bin, a feed inlet is arranged above the temporary storage bin, a discharge outlet is arranged below the temporary storage bin, a discharge gap is reserved between the discharge outlet and the conveyer belt device, a baffle is arranged between the temporary storage bin and the material arranging bin, the baffle extends towards the conveyer belt device, and a blanking gap is reserved between the baffle and the conveyer belt device; the utility model provides a pair of automatic cloth machine of material has solved the relatively poor problem of homogeneity of current feeding design feeding when meetting the poor material of mobility.

Description

Automatic material distributing machine

Technical Field

The utility model relates to a material feeding unit technical field, concretely relates to automatic material distribution machine of material.

Background

The existing dryer or conveyor needs the uniform consistency of feeding and keeps the front and back consistent, the existing feeding mode comprises vibration feeding, shaking feeding and scraper feeding, the devices can control some simple materials, but the control precision is not high, for example, when materials with adhesion or poor flowability are encountered, the material control precision of the feeding mode cannot be accurately controlled, and the feeding mode is more, less and uneven. If the feeding is not uniform, great difficulty is brought to subsequent processing, the moisture of the material is suddenly high and suddenly low if the feeding is not uniform, and the material in the whole batch is reworked if the feeding is serious. Therefore, a material distribution device capable of improving the uniformity of material feeding is urgently needed at present.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic cloth machine of material for solve at least one above-mentioned problem that exists among the prior art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an automatic material distributing machine comprises a temporary storage bin, a material arranging bin and a conveying belt device, wherein the conveying belt device is positioned below the temporary storage bin and the material arranging bin, a feeding hole is formed above the temporary storage bin, a discharging hole is formed below the temporary storage bin, a discharging gap is reserved between the discharging hole and the conveying belt device, a baffle is arranged between the temporary storage bin and the material arranging bin, the baffle extends towards the conveying belt device, and a blanking gap is reserved between the baffle and the conveying belt device;

the material sorting bin is internally provided with a reverse rotating baffle which comprises a reverse rotating shaft, the reverse rotating shaft is provided with a plurality of rotating baffles, the reverse rotating shaft rotates anticlockwise, and a material pushing gap is reserved between each rotating baffle and the conveying belt device;

and the heating device is arranged close to the inner side of the upper conveying belt of the conveying belt device.

In the technical scheme, materials are fed into the temporary storage bin from a feeding hole above the temporary storage bin and then fall onto the conveying belt device from a discharging hole, a blanking gap is formed between the lower end of the baffle and the conveying belt device, and when the materials pass through the lower part of the baffle, the adjustment of the primary feeding amount of the materials on the conveying belt is realized through the blanking gap; then, the materials are conveyed along with the conveying belt and pass through the reverse rotating baffles, the reverse rotating shafts rotate anticlockwise, namely rotate anticlockwise towards the baffles, pushing gaps are reserved between the rotating baffles and the conveying belt device, the reverse rotating baffles can push back the excessive materials passing through the reverse rotating baffles to sort the materials, the number of the reverse rotating baffles can be adjusted adaptively according to needs, for example, under the condition that the length of the conveying belt is longer, the number of the reverse rotating baffles can be increased, sorting of the materials is better realized, and the materials on the conveying belt are kept uniform; in addition, because the last heating device that is equipped with of conveyor belt device, the inboard setting that heating device is close to the top conveyer belt of conveyor belt device, heating device can realize the heating to the top conveyer belt for thereby the material prevents through the heating to the material that the material from gluing the conveyer belt in transportation process, improves the cleanliness factor of conveyer belt, promotes the smooth and easy nature that the material was carried simultaneously, more does benefit to the homogeneity of control ejection of compact.

Further, for the adjustment of better realization to first feed amount, the lower extreme of baffle is equipped with scrapes the flitch, scrape the flitch and extend towards the discharge gate level in temporary storage bin.

Furthermore, in order to better realize the arrangement of the materials, two reverse rotating baffles are arranged in the material arrangement bin at intervals along the conveying direction of the conveying belt device. Two reverse rotating baffle, can realize earlier when carrying out the material after the first material arrangement again through another reverse rotating baffle to the material, carry out the reverse unnecessary material that pushes back of second by another reverse rotating baffle again, at this moment, the material is even unanimous, can prepare the blanking.

Further, since the falling speed and the falling amount of the materials in the temporary storage bin are difficult to be accurately controlled, and the uniformity of the output of the materials is also related to the conveying speed of the conveying belt device, in order to better ensure the uniformity of the output of the materials under the condition that the falling speed and the falling amount of the materials in the temporary storage bin are difficult to be controlled, the height of the material pushing gap is higher than that of the blanking gap.

Furthermore, in order to clean the metal in the material, the rotating shaft of the conveyor belt device on one side of the discharging end is magnetic. The pivot has magnetism, then before the blanking, the metal in the material can be adsorbed on the conveyer belt by the pivot, can not fall along with the blanking of material along with it, when treating the conveyer belt return stroke, the metal that adsorbs on the conveyer belt keeps away from the pivot, then magnetic force weakens gradually and disappears, then the metal can follow the conveyer belt and drop to realized that the metal in material and the material falls from the position of difference respectively, thereby can realize the rejection to metal in the material.

Further, in order to realize the integration installation to each part, including the shell, temporary storage storehouse, material arrangement storehouse and conveyer belt device all set up in the shell.

Furthermore, in order to facilitate the discharging of the materials, a material outlet is formed in the position, corresponding to the discharging end of the conveying belt device, of the outer shell.

Furthermore, in order to collect the metal conveniently, a collecting box is arranged below the conveying belt device close to the discharge end of the conveying belt device.

Further, in order to realize the fixed collection of metal, promote the collection effect, the inner wall of collecting the box has magnetism.

Furthermore, in order to improve the heating effect of the material in the whole conveying process, the heating area of the heating device extends from the feeding end of the conveyer belt device to a position close to the blanking end of the conveyer belt device.

The utility model has the advantages that: in the technical scheme, materials are put into the temporary storage bin from a feeding hole above the temporary storage bin and then fall onto the conveying belt device from a discharging hole, a blanking gap is formed between the lower end of the baffle and the conveying belt device, and when the materials pass through the lower part of the baffle, the blanking gap realizes the adjustment of the primary feeding amount of the materials on the conveying belt; then, the materials are conveyed along with the conveying belt and pass through the reverse rotating baffles, the reverse rotating shafts rotate anticlockwise, namely rotate anticlockwise towards the baffles, pushing gaps are reserved between the rotating baffles and the conveying belt device, the reverse rotating baffles can push back the excessive materials passing through the reverse rotating baffles to sort the materials, the number of the reverse rotating baffles can be adjusted adaptively according to needs, for example, under the condition that the length of the conveying belt is longer, the number of the reverse rotating baffles can be increased, sorting of the materials is better realized, and the materials on the conveying belt are kept uniform; in addition, because the last heating device that is equipped with of conveyor belt device, the inboard setting that heating device is close to the top conveyer belt of conveyor belt device, heating device can realize the heating to the top conveyer belt for thereby the material prevents through the heating to the material that the material from gluing the conveyer belt in transportation process, improves the cleanliness factor of conveyer belt, promotes the smooth and easy nature that the material was carried simultaneously, more does benefit to the homogeneity of control ejection of compact.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure: a temporary storage bin 1; a material arranging bin 2; a conveyor belt device 3; a feed port 4; a discharge port 5; a baffle 7; a blanking gap 8; a reverse rotation baffle 9; a reverse rotation shaft 10; a rotating baffle plate 11; a pusher gap 12; a heating device 13; a scraper plate 14; a rotating shaft 15; a conveyor belt 16; a housing 17.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be briefly described below with reference to the accompanying drawings and the description of the embodiments or the prior art, and it is obvious that the following description of the structure of the accompanying drawings is only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without any inventive work. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto.

Example 1:

as shown in fig. 1, the embodiment provides an automatic material distributor, which includes a temporary storage bin 1, a material sorting bin 2, and a conveyor belt device 3, where the conveyor belt device 3 is located below the temporary storage bin 1 and the material sorting bin 2, a feed inlet 4 is located above the temporary storage bin 1, a discharge outlet 5 is located below the temporary storage bin 1, a discharge gap is left between the discharge outlet 5 and the conveyor belt device 3, a baffle 7 is located between the temporary storage bin 1 and the material sorting bin 2, the baffle 7 extends toward the conveyor belt device 3, and a blanking gap 8 is left between the baffle 7 and the conveyor belt device 3;

the material arrangement bin 2 is internally provided with a reverse rotation baffle 9, the reverse rotation baffle 9 comprises a reverse rotation shaft 10, the reverse rotation shaft 10 is provided with a plurality of rotation baffles 11, the reverse rotation shaft 10 rotates anticlockwise, it needs to be explained that the reverse rotation shaft 10 can be driven by a motor, the driving mode is the prior art, too much explanation is not performed here, and a material pushing gap 12 is reserved between the rotation baffle 11 positioned at the lowest part and the conveyer belt device 3. The number of the rotating baffles 11 can be designed adaptively according to the outer diameter of the reverse rotating shaft 10, in the embodiment, four rotating baffles 11 are uniformly arranged on the reverse rotating shaft 10 in the circumferential direction, but the rotating baffles 11 can be other numbers, the length of each rotating baffle 11 needs to be adapted to the width of the conveying belt, so that effective arrangement of materials on the conveying belt can be guaranteed, meanwhile, the length of the reverse rotating shaft 10 is preferably adapted to the width of the conveying belt, the rotating baffles 11 can be mounted more conveniently, the rotating baffles 11 can be fixed on the reverse rotating shaft 10 in an inserting manner, preferably, a plurality of mounting grooves can be formed in the reverse rotating shaft 10 in the circumferential direction, and then the optional baffles 7 can be fixed in the mounting grooves;

the conveyer belt device 3 is provided with a heating device 13, and the heating device 13 is arranged close to the inner side of the upper conveyer belt of the conveyer belt device 3.

In the technical scheme, materials are put into the temporary storage bin 1 from a feeding hole 4 above the temporary storage bin 1 and then fall onto the conveying belt device 3 from a discharging hole 5, a blanking gap 8 is formed between the lower end of the baffle 7 and the conveying belt device 3, and when the materials pass below the baffle 7, the blanking gap 8 realizes the adjustment of the primary feeding amount of the materials on the conveying belt; then, the materials are conveyed along with the conveying belt continuously and pass through the reverse rotating baffles 9, the reverse rotating shafts 10 rotate anticlockwise, namely, rotate anticlockwise towards the baffles 7, and the pushing gaps 12 are reserved between the rotating baffles 11 and the conveying belt device 3, so that the reverse rotating baffles 9 can push back the excess materials passing through the positions to sort the materials, the number of the reverse rotating baffles 9 can be adjusted adaptively according to needs, for example, the number of the reverse rotating baffles 9 can be increased under the condition that the length of the conveying belt is long, so that sorting of the materials is better realized, and the materials on the conveying belt are kept uniform; in addition, because be equipped with heating device 13 on the conveyer belt device 3, heating device 13 is close to the inboard setting of conveyer belt device 3's top conveyer belt, and heating device 13 can realize the heating to the top conveyer belt for thereby the material prevents that the material from gluing the conveyer belt through the heating to the material in transportation process, improves the cleanliness factor of conveyer belt, promotes the smooth and easy nature that the material was carried simultaneously, more does benefit to the homogeneity of control ejection of compact.

Example 2:

this embodiment is optimized based on embodiment 1 described above.

In order to better realize the adjustment of the primary feeding amount, the lower end of the baffle 7 is provided with a scraping plate 14, and the scraping plate 14 horizontally extends towards the discharge port 5 of the temporary storage bin 1.

Example 3:

this embodiment is optimized based on embodiment 1 described above.

For the arrangement of better realization to the material, be equipped with two reverse rotation baffles 9 along the direction of delivery interval of conveyor belt device 3 in material arrangement storehouse 2. Two reverse rotating baffle 9 can realize earlier carrying out the material arrangement back for the first time to the material, and when the material was again through another reverse rotating baffle 9, carried out the reverse unnecessary material of pushing back for the second time by another reverse rotating baffle 9 again, and at this moment, the material is even unanimous, can prepare the blanking.

Example 4:

this embodiment is optimized based on embodiment 1 described above.

Since the falling speed and the falling amount of the materials in the temporary storage bin 1 are difficult to control accurately, and the uniformity of the output of the materials is also related to the conveying speed of the conveyer belt device 3, the height of the material pushing gap 12 is higher than that of the blanking gap 8 in order to better ensure the uniformity of the output of the materials even under the condition that the falling speed and the falling amount of the materials are difficult to control.

Example 5:

this embodiment is optimized based on embodiment 1 described above.

In order to clean the metal in the material, the rotating shaft 15 of the conveyer belt device 3 at the side of the discharging end has magnetism. The pivot 15 has magnetism, can set up magnet on the pivot 15, then before the blanking, the metal in the material can be adsorbed on conveyer belt 16 by pivot 15, can not fall along with the blanking of material, when treating the conveyer belt 16 return stroke, the pivot 15 is kept away from to the metal that adsorbs on conveyer belt 16, then magnetic force weakens gradually and disappears, then the metal can be followed conveyer belt 16 and dropped, thereby realized that the metal in material and the material falls from the position of difference respectively, thereby can realize the rejection to metal in the material.

Example 6:

this embodiment is optimized based on embodiment 1 described above.

In order to realize the integrated installation of each part, the device comprises a shell 17, and a temporary storage bin 1, a material sorting bin 2 and a conveyor belt device 3 are all arranged in the shell 17.

Example 7:

this embodiment is optimized based on embodiment 6 described above.

In order to facilitate the discharging of the material, a material outlet is arranged at the position of the shell 17 corresponding to the discharging end of the conveying belt device 3.

Example 8:

this embodiment is optimized based on embodiment 1 described above.

In order to collect the metal conveniently, a collecting box is arranged below the conveying belt device 3 close to the discharge end of the conveying belt device.

Example 9:

this embodiment is optimized based on embodiment 8 described above.

In order to realize the fixed collection of metal, promote the collection effect, the inner wall of collecting the box has magnetism, can set up magnet at the inner wall of collecting the box.

Example 10:

this embodiment is optimized based on embodiment 9 described above.

In order to increase the heating effect of the material during the entire conveying process, the heating area of the heating device 13 extends from the feed end of the conveyor belt device 3 to a position close to the discharge end of the conveyor belt device 3.

To sum up, this technical scheme can replace most material feeding device, and this device noiselessness, no vibrations, do not go up dirt, static operation are stable, reduce artifical nurse, practice thrift manufacturing cost, operation safe and reliable.

According to the technical scheme, uniform and consistent material supply can be realized for various materials, the subsequent processing change is controllable and adjustable, and the purpose of no differentiation among batch materials is realized.

Finally, it should be noted that: the above is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an automatic cloth machine of material which characterized in that: the device comprises a temporary storage bin, a material sorting bin and a conveying belt device, wherein the conveying belt device is positioned below the temporary storage bin and the material sorting bin, a feeding hole is formed above the temporary storage bin, a discharging hole is formed below the temporary storage bin, a discharging gap is reserved between the discharging hole and the conveying belt device, a baffle is arranged between the temporary storage bin and the material sorting bin, the baffle extends towards the conveying belt device, and a blanking gap is reserved between the baffle and the conveying belt device;

the material sorting bin is internally provided with a reverse rotating baffle which comprises a reverse rotating shaft, the reverse rotating shaft is provided with a plurality of rotating baffles, the reverse rotating shaft rotates anticlockwise, and a material pushing gap is reserved between each rotating baffle and the conveying belt device;

and the heating device is arranged close to the inner side of the upper conveying belt of the conveying belt device.

2. An automatic material distributor as claimed in claim 1, characterized in that: the lower extreme of baffle is equipped with scrapes the flitch, scrape the flitch and extend towards the discharge gate level of temporary storage storehouse.

3. An automatic material distributor as claimed in claim 1, characterized in that: two reverse rotating baffles are arranged in the material arranging bin at intervals along the conveying direction of the conveying belt device.

4. An automatic material distributor as claimed in claim 1, characterized in that: the height of the material pushing gap is higher than that of the blanking gap.

5. An automatic material distributor as claimed in claim 1, characterized in that: and a rotating shaft of the conveying belt device, which is positioned on one side of the discharge end, is magnetic.

6. An automatic material distributor as claimed in claim 1, characterized in that: including the shell, temporary storage storehouse, material arrangement storehouse and conveyer belt device all set up in the shell.

7. An automatic material distributor as claimed in claim 6, characterized in that: and a material outlet is arranged at the position, corresponding to the discharge end of the conveying belt device, on the shell.

8. An automatic material distributor as claimed in claim 1, characterized in that: and a collecting box is arranged below the conveying belt device close to the discharge end of the conveying belt device.

9. An automatic material distributor as claimed in claim 8, characterized in that: the inner wall of the collecting box has magnetism.

10. An automatic material distributor as claimed in claim 1, characterized in that: the heating area of the heating device extends from the feeding end of the conveyer belt device to a position close to the blanking end of the conveyer belt device.

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